The osteoporotic vertebral structure is well adapted to the loads of daily life, but not to infrequent "error" loads.
about
Human evolution and osteoporosis-related spinal fracturesPredicting mouse vertebra strength with micro-computed tomography-derived finite element analysis.Role of trabecular microarchitecture in whole-vertebral body biomechanical behaviorBiaxial normal strength behavior in the axial-transverse plane for human trabecular bone--effects of bone volume fraction, microarchitecture, and anisotropy.Effects of trabecular type and orientation on microdamage susceptibility in trabecular bone.Preoperative assessment of the cancellous bone mineral density of the proximal humerus using CT data.Bone three-dimensional microstructural features of the common osteoporotic fracture sites.Type and orientation of yielded trabeculae during overloading of trabecular bone along orthogonal directions.Lumbar trabecular bone mineral density distribution in patients with and without vertebral fractures: a case-control study.Whole bone mechanics and bone quality.Variability of trabecular microstructure is age-, gender-, race- and anatomic site-dependent and affects stiffness and stress distribution properties of human vertebral cancellous bone.Role of trabecular microarchitecture and its heterogeneity parameters in the mechanical behavior of ex vivo human L3 vertebraeInfluence of vertical trabeculae on the compressive strength of the human vertebraEndplate deflection is a defining feature of vertebral fracture and is associated with properties of the underlying trabecular boneA biomechanical perspective on bone quality.Micromechanical analyses of vertebral trabecular bone based on individual trabeculae segmentation of plates and rods.Locations of bone tissue at high risk of initial failure during compressive loading of the human vertebral body.Micromechanics of the human vertebral body for forward flexion.Vertebral fragility and structural redundancy.Seeing double: a comparison of microstructure, biomechanical function, and adjacent disc health between double- and single-layer vertebral endplates.Shear strength behavior of human trabecular bone.Enhanced trabecular micro-architecture of the femoral neck in hip osteoarthritis vs. healthy controls: a micro-computer tomography study in postmenopausal womenLongitudinal changes in lumbar bone mineral density distribution may increase the risk of wedge fractures.Advanced CT bone imaging in osteoporosisThe Effect of Quantitative Computed Tomography Acquisition Protocols on Bone Mineral Density EstimationInfluence of Trabecular Bone on Peri-Implant Stress and Strain Based on Micro-CT Finite Element Modeling of Beagle Dog.Increased microstructural variability is associated with decreased structural strength but with increased measures of structural ductility in human vertebrae.Human cancellous bone from T12-L1 vertebrae has unique microstructural and trabecular shear stress propertiesEffect of specimen-specific anisotropic material properties in quantitative computed tomography-based finite element analysis of the vertebraTrabecular bone mechanical properties in patients with fragility fractures.New suggestions for the mechanical control of bone remodeling.Finite element method (FEM), mechanobiology and biomimetic scaffolds in bone tissue engineeringTrabecular architecture and vertebral fragility in osteoporosis.Micro Finite Element models of the vertebral body: Validation of local displacement predictionsA review of trabecular bone functional adaptation: what have we learned from trabecular analyses in extant hominoids and what can we apply to fossils?Generalizing the mean intercept length tensor for gray-level images.Finite Element-Based Mechanical Assessment of Bone Quality on the Basis of In Vivo Images.Large-scale microstructural simulation of load-adaptive bone remodeling in whole human vertebrae.The role of cortical shell and trabecular fabric in finite element analysis of the human vertebral body.Trabecular level analysis of bone cement augmentation: a comparative experimental and finite element study.
P2860
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P2860
The osteoporotic vertebral structure is well adapted to the loads of daily life, but not to infrequent "error" loads.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
The osteoporotic vertebral str ...... t to infrequent "error" loads.
@en
type
label
The osteoporotic vertebral str ...... t to infrequent "error" loads.
@en
prefLabel
The osteoporotic vertebral str ...... t to infrequent "error" loads.
@en
P2093
P1433
P1476
The osteoporotic vertebral str ...... t to infrequent "error" loads.
@en
P2093
Eckstein F
Homminga J
Lochmüller EM
Van-Rietbergen B
P304
P356
10.1016/J.BONE.2003.12.001
P577
2004-03-01T00:00:00Z